Dust–plasma interaction through magnetosphere–ionosphere coupling in Saturn’s plasma disk

Shotaro Sakai; Shigeto Watanabe; Michiko W. Morooka; Madeleine K.G. Holmberg; Jan-Erik Wahlund; Donald A. Gurnett; William S. Kurth

doi:10.1016/j.pss.2012.11.003

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Dust–plasma interaction through magnetosphere–ionosphere coupling in Saturn’s plasma disk

Journal article

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Dust–plasma interaction through magnetosphere–ionosphere coupling in Saturn’s plasma disk

Shotaro Sakai, Shigeto Watanabe, Michiko W. Morooka, Madeleine K.G. Holmberg, Jan-Erik Wahlund, Donald A. Gurnett and William S. Kurth

Planetary and space science, Vol.75(1), pp.11-16

01/2013

DOI: 10.1016/j.pss.2012.11.003

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Abstract

The ion bulk speeds in the equatorial region of Saturn’s inner magnetosphere, according to data from the Langmuir Probe (LP) on board the Cassini spacecraft, are about 60% of the ideal co-rotation speed; the ion speeds are between the co-rotation and Keplerian speeds (Holmberg et al., Ion densities and velocities in the inner plasma torus of Saturn, Planetary and Space Science). These findings suggest that sub-micrometer negatively charged E ring dust contributes to the plasma dynamics in the plasma disk. We calculated the ion speeds by using a multi-species fluid model, taking into account dust interactions to investigate the effects of ion–dust coulomb collision, mass loading, as well as taking into account magnetosphere–ionosphere coupling to investigate the effect of the magnetospheric electric field. The results show that the ion speeds can be significantly reduced by the electric fields generated by the collisions between ions and dusts when the dust density is high and the thickness of dust distribution is large. We also show that the ion speeds from our model are consistent with the LP observations when the maximum density of dust is larger than ∼105m−3. ► We estimated ion speeds considering the ion–dust collision using a multi-fluid model. ► Ions are slowed down due to the electric fields generated by ion–dust collision. ► Ion speeds become small when a dust density or a dust cloud thickness is large. ► The model agrees with the observations when the dust density is larger than 105m−3.

Co-rotation lag

Dusty plasma

Dust–plasma interaction

Magnetosphere–ionosphere coupling

Saturn

Details

Title: Subtitle: Dust–plasma interaction through magnetosphere–ionosphere coupling in Saturn’s plasma disk
Creators: Shotaro Sakai - Hokkaido University
Shigeto Watanabe - Hokkaido University
Michiko W. Morooka - Tohoku University
Madeleine K.G. Holmberg - Swedish Institute of Space Physics
Jan-Erik Wahlund - Swedish Institute of Space Physics
Donald A. Gurnett - University of Iowa
William S. Kurth - University of Iowa
Resource Type: Journal article
Publication Details: Planetary and space science, Vol.75(1), pp.11-16
Publisher: Elsevier Ltd
DOI: 10.1016/j.pss.2012.11.003
ISSN: 0032-0633
eISSN: 1873-5088
Grant note: DOI: 10.13039/501100001691, name: Japan Society for the Promotion of Science
Language: English
Date published: 01/2013
Academic Unit: Physics and Astronomy
Record Identifier: 9984455555802771

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